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Realizace zařízení pro měření rozptylu elektromagnetického záření ve struktuře solárních článků / Realization of the device for measurement of electromagnetic waves scattering from structure of solar cellsBrilla, Pavol January 2010 (has links)
The master thesis discusses the principles, design and realization of the original device for measuring of the electromagnetic radiation scattering in the structure of solar cells. It follows the results of a previous project "Analýza optických vlastností solárných článku" (ev.n.FT-TA3/142) and as well as knowledge gained from Ing. Vladimir Grundling’s master thesis, which has been done under this project. The subject of this thesis was to make a device for measuring of the electromagnetic radiation scattering in the visible spectrum. The aim of this work is an innovation of the previous device, so that the electromagnetic radiation scattering in the near infrared spectrum can be studied. This makes the possibility to qualify the influence of the rear surface of an active part of solar cell on electromagnetic radiation scattering, i.e., on the conversion efficiency of solar energy into electric. For this reasons it was necessary to modify the device, so that we can change the radiation source and detector because of the transparency of silicon wafers for the near infrared area. The work is supported by the project „Barevné solární články s vysokou účinností pro architektonické aplikace“ (FRTI1/168) in cooperation with Solartec s.r.o.
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Návrh fluorescenčního mikroskopu pro spektroskopii uhlíkových nanotrubiček / Design of the fluorescence microscope for carbon nanotubes spectroscopyBorovský, Ján January 2014 (has links)
This diploma thesis deals with design, implementation and testing of fluorescence microscope intended for carbon nanotubes spectroscopy. Theory of fluorescence resulting from solid state physics and atomic structure of nanotubes is briefly discussed. The basic idea, optical scheme and optical elements used in the fluorescence microscope are described based on requirements resulting from the theory. The thesis mentions the sample preparation procedure and measurements of its optical activity as well. Realized microscope is usable for fluorescence measurements within the supposed range of wavelengths as was proved by testing.
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Functional Materials Based on Surface Modification of Carbon Nanotubes for Biomedical and Environmental ApplicationsMashat, Afnan 05 1900 (has links)
Since the discovery of carbon nanotubes (CNTs), they have gained much
interest in many science and engineering fields. The modification of CNTs by
introducing different functional groups to their surface is important for CNTs to be
tailored to fit the need of specific applications. This dissertation presents several
CNT-based systems that can provide biomedical and environmental advantages.
In this research, polyethylenimine (PEI) and polyvinyl alcohol (PVA) were used
to coat CNTs through hydrogen bonding. The release of doxorubicin (DOX, an anticancer
drug) from this system was controlled by temperature. This system represents
a promising method for incorporating stimuli triggered polymer-gated CNTs in
controlled release applications.
To create an acid responsive system CNTs were coated with 1,2-Distearoyl-snglycero-
3-Phosphoethanolamine-N-[Amino(Polyethylene glycol)2000]-(PE-PEG) and
Poly(acrylic acid) modified dioleoy lphosphatidyl-ethanolamine (PE-PAA). An acidlabile
linker was used to cross-link PAA, forming ALP@CNTs, thus making the
system acid sensitive. The release of DOX from ALP@CNTs was found to be higher
in an acidic environment. Moreover, near infrared (NIR) light was used to enhance
the release of DOX from ALP@CNTs. A CNT-based membrane with controlled diffusion was prepared in the next
study. CNTs were used as a component of a cellulose/gel membrane due to their
optical property, which allows them to convert NIR light into heat. Poly(Nisopropylacrylamide)
(PNIPAm) was used due to its thermo-sensitivity. The
properties of both the CNTs and PNIPAm’s were used to control the diffusion of the
cargo from the system, under the influence of NIR.
CNTs were also used to fabricate an antibacterial agent, for which they were
coated with polydopamine (PDA) and decorated with silver particles (Ag). Galactose
(Gal) terminated with thiol groups conjugated with the above system was used to
strengthen the bacterial targeting ability. The antibacterial activity of
Ag/Gal@PDA@CNTs was examined on Escherichia coli. NIR was used to enhance
the antibacterial activity of Ag/Gal@PDA@CNTs.
Finally, CNTs were used as a support for methyl orange (MO) and palladium
catalysts (Pd). MO was used due to its ability to enhance the catalyst activity.
Pd@CNTs composites were used to test the reduction rate of nitrite with and without
the addition MO. The results showed that over repeated cycles of nitrite reduction, the
activity enhancement was lost.
In summary, CNTs are promising building blocks for preparation of smart and
stimuli responsive systems that have potential for a wide range of applications. The
methods presented are simple and can be scaled up for industrial processing purposes.
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Towards bis-benzimidazole near-infrared absorbing and emitting dyesWang, Tianyi 16 March 2021 (has links)
A conjugated bis-benzimidazole chromophore is predicted to show absorptions in the near-infrared (NIR) region of the electromagnetic spectrum. However, there are no reports to-date of any NIR absorbing and emitting dyes that are based on a bis-benzimidazole structural backbone. This thesis reports recent advancements in the discovery and study of this new class of dyes.
Following literature procedures, the syntheses of bis(benzimidazolyl)methane compounds are successful. An unexpected product isolated during the attempted oxidation of a bis(benzimidazolyl)methane compound using p-chloranil showed intense absorption in the NIR (λmax = 712 nm, ε = 14600 L·mol-1·cm-1), solubilities in polar solvents like methanol and water, and electrochemical activities. X-ray crystallography, mass spectrometry, and NMR spectroscopy confirmed the connectivity and structure of the product to contain a combination of quinone and benzimidazole moieties, which later revealed to be the core chromophore by computational studies. This unprecedented combination of moieties gave a chromophore that is predicted to absorb in the far-red even without substitution.
Attempts to synthesize boron-based bis-imidazole dyes with N-methylation shed light on the feasibility of the design of such moiety. Considering the additional functionality that could be accessed through the methylation of the labile benzimidazole nitrogen atoms, N-methylated bis(benzimidazolyl)methane precursors were successfully synthesized and fully characterized. Attempts of the boron coordination showed promising signs, as the 1H, 11B, and 19F NMR spectra showed solid evidence of the successful isolation of the boron chelate. Computational studies of methyl, phenyl, and triazole-substituted boron chelate derivatives projected absorptions in the NIR region. Intense transitions are found to be based on frontier molecular orbitals and differ significantly among the derivatives, predicting substantial tunability of this type of dyes. / Graduate / 2022-02-18
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Assessing Body Composition Before and After Resistance or Endurance TrainingBroeder, Craig E., Burrhus, Keith A., Svanevik, Lars S., Volpe, Joseph, Wilmore, Jack H. 01 January 1997 (has links)
This study's purpose was to determine the validity of near-infrared interactance (NIR) and bioelectric impedance (BIA) in tracking changes in body composition over 12 wk of either a high intensity endurance (ET) or resistance (RT) training program in nondieting weight-stable untrained males. Prior to and following the control or training period, each subject completed a series of body composition analyses including hydrostatic weighing (HW) with a measurement of residual volume; anthropometric measurements including height, weight, skinfold, and girth; BIA measurement; and NIR measurements. Based on the HW results, there were no significant body composition changes in the control group. For the ET group, a significant decline in relative body fat resulted from a reduction in fat weight (FW) with no change in fat-free weight (FFW). In the RT group, both a significant decline in FW and an increase in FFW contributed to this group's decline in relative body fat. Tracking changes in relative body fat, FW, and FFW, skinfolds agreed reasonably well with HW in all groups while BIA and NIR did not always track body composition changes well. For example, SF and BIA were significantly correlated with the changes in FFW (HW = + 4.1%, SF = + 4.5%, BIA = + 3.1% NIR = - 0.7%) observed in the RT group compared to HW (SF: r-value = 0.45, SEE = 2.5; BIA; r = 0.33, SEE = 3.4) while the NIR measurements were nonsignificant (r = 0.09, SEE = 5.0). Interestingly, NIR underestimated the gain in FFW in the resistance trained group while BIA underestimated the changes in relative body fat, FW, and FFW in the endurance trained group. Based on these results, BIA aim NIR appear not to be appropriate measurement tools for tracking body composition changes in endurance and resistance training individuals respectively.
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Bioluminescent Model for the Quantification of Photothermal Ablative Breast Cancer Therapy Mediated by Near-Infrared NanoparticlesGutwein, L., Singh, A. K., Hahn, M., Rule, M., Brown, S., Knapik, J., Moudgil, B., Grobmyer, S. 09 November 2010 (has links) (PDF)
Multifunctional theranostic nanoparticles hold promise for enabling non-invasive image guided cancer therapy such as photothermal therapy. Human breast tumor models in which response to image guided therapy can quickly and non-invasively be determined are needed to facilitate translation and application of these technologies. We hypothesize that a system utilizing a murine light-reporter mammary tumor cell line and near-infrared nanoparticles (NIR-NP) can be used to quantify response to therapy and determine fate of nanoparticles following photothermal ablation.
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Predicting Digestibilities of Alfalfa Hays with Near Infrared Reflectance SpectroscopyClark, David H. 01 May 1985 (has links)
Forty-four alfalfa hays from different cuttings, maturities, and locations were fed to sheep in a digestion study. Subsamples of the hays along with corresponding fecal samples were ground and analyzed for dry matter, (DM), organic matter (OM), crude protein (CP), acid detergent fiber (ADF), neutral detergent fiber (NDF), and permanganate lignin. In vivo digestibility (IVDMD) were also determined fro each hay.
The hay and fecal samples were scanned with a near infrared reflectance spectrophotometer. Chemical and digestible data for each hay and fecal sample were entered into the computer and separate multiple regression equations developed.
Fifteen other alfalfa hays with known chemical and digestible data were used to test the alfalfa equation. Standard errors of analysis (%) and corresponding r2s were: 3.55 and 0.81, 0.23 and 0.99, 2.44 and 0.94, 0.85 and 0.98, 1.33 and 0.96, 1.13 and 0.96, 1.13 and 0.80 for DDM, CP, IVDMD, ADF, NDF, and lignin, respectively. Thirty fecal samples with known chemical data were used to test the fecal equation. Standard errors of analysis and corresponding r2s were: 0.13 and 0.96, 0.41 and 0.93, 0.87 and 0.96, 1.79 and 0.90, 2.10 and 0.91, 1.46 and 0.90 for DM, OM, CP, ADF, NDF and lignin, respectively.
Using the spectral information from fecal samples and the chemical composition of alfalfa samples to analyze other alfalfa samples was examined. Twelve other alfalfa hays with known chemical and digestible data were used to test the fecal equation. Standard errors of analysis (%) and corresponding r2s were: 4.05 and 0.01, 1.54 and 0.48, 1.63 and 0.71, 13.16 and 0.55, 1.43 and 0.35, 6.52 and 0.13, 4.30 and 0.63, 2.36 and 0.09, 5.75 and 0.49 for DM, OM, CP, IVDMD, ash, NDF, ADF, lignin, and DDM respectively.
Hay fecal samples were sieved to study the utility of using sieving as a procedure to support chemical data in predicting DDM. Use of sieving (alfalfa and fecal) and chemical data (other than IVDMD) increased the precision of predicting DDM (R2 = 0.76), over using IVDMD and ash concentrations to predict DDM (R2 = 0.66).
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Rapid non-destructive assessment of wood decay by near infrared spectroscopyGreen, Benny 01 May 2010 (has links)
The use of near infrared (NIR) spectroscopy for predicting levels of degradation in laboratory soil block tests was investigated. Calibrations were developed for mass loss, compression strength, and exposure period using data measured from the prior methods, and untreated and mathematically treated (multiplicative scatter correction and first and second derivative) NIR spectra from various spans of wavelengths by partial least squares regression. Strong correlations were obtained from each study conducted, while calibrations developed from NIR spectra from the cross-sectional face of southern yellow pine presented the strongest predictions. Of them, calibrations for mass loss resulted in the strongest predictions. Calibrations constructed from spectra obtained from the radial face of southern yellow pine also produced strong predictions, where the strongest model was for exposure period. While, calibrations developed for cottonwood presented the weakest statistics, the strongest calibration found was for exposure period.
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Quality evaluation of frying oil and chicken nuggets using visiblenear-infrared hyper-spectral analysisKazemi Sangdehi, Samira January 2005 (has links)
No description available.
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Potential applications of hyperspectral imaging for the determination of total soluble solids, water content and firmness in mangoServakaranpalayam. S., Sivakumar. January 2006 (has links)
No description available.
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